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srsRAN_4G/srsenb/src/metrics_stdout.cc

213 lines
6.1 KiB
C++

/*
* Copyright 2013-2019 Software Radio Systems Limited
*
* This file is part of srsLTE.
*
* srsLTE is free software: you can redistribute it and/or modify
* it under the terms of the GNU Affero General Public License as
* published by the Free Software Foundation, either version 3 of
* the License, or (at your option) any later version.
*
* srsLTE is distributed in the hope that it will be useful,
* but WITHOUT ANY WARRANTY; without even the implied warranty of
* MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
* GNU Affero General Public License for more details.
*
* A copy of the GNU Affero General Public License can be found in
* the LICENSE file in the top-level directory of this distribution
* and at http://www.gnu.org/licenses/.
*
*/
#include "srsenb/hdr/metrics_stdout.h"
#include <float.h>
#include <iomanip>
#include <iostream>
#include <math.h>
#include <sstream>
#include <stdlib.h>
#include <unistd.h>
#include <stdio.h>
#include <string.h>
using namespace std;
namespace srsenb {
char const* const prefixes[2][9] = {
{
"",
"m",
"u",
"n",
"p",
"f",
"a",
"z",
"y",
},
{
"",
"k",
"M",
"G",
"T",
"P",
"E",
"Z",
"Y",
},
};
metrics_stdout::metrics_stdout() : do_print(false), n_reports(10), enb(NULL) {}
void metrics_stdout::set_handle(enb_metrics_interface* enb_)
{
enb = enb_;
}
void metrics_stdout::toggle_print(bool b)
{
do_print = b;
}
void metrics_stdout::set_metrics(const enb_metrics_t& metrics, const uint32_t period_usec)
{
if (!do_print || enb == nullptr) {
return;
}
if (metrics.rf.rf_error) {
printf("RF status: O=%d, U=%d, L=%d\n", metrics.rf.rf_o, metrics.rf.rf_u, metrics.rf.rf_l);
}
if (metrics.stack.rrc.n_ues == 0) {
return;
}
std::ios::fmtflags f(cout.flags()); // For avoiding Coverity defect: Not restoring ostream format
if (++n_reports > 10) {
n_reports = 0;
cout << endl;
cout << "------DL--------------------------------UL------------------------------------" << endl;
cout << "rnti cqi ri mcs brate ok nok (%) snr phr mcs brate ok nok (%) bsr" << endl;
}
for (int i = 0; i < metrics.stack.rrc.n_ues; i++) {
if (metrics.stack.mac[i].tx_errors > metrics.stack.mac[i].tx_pkts) {
printf("tx caution errors %d > %d\n", metrics.stack.mac[i].tx_errors, metrics.stack.mac[i].tx_pkts);
}
if (metrics.stack.mac[i].rx_errors > metrics.stack.mac[i].rx_pkts) {
printf("rx caution errors %d > %d\n", metrics.stack.mac[i].rx_errors, metrics.stack.mac[i].rx_pkts);
}
cout << int_to_hex_string(metrics.stack.mac[i].rnti, 4) << " ";
cout << float_to_string(SRSLTE_MAX(0.1, metrics.stack.mac[i].dl_cqi), 1, 3);
cout << float_to_string(metrics.stack.mac[i].dl_ri, 1, 4);
if (not isnan(metrics.phy[i].dl.mcs)) {
cout << float_to_string(SRSLTE_MAX(0.1, metrics.phy[i].dl.mcs), 1, 4);
} else {
cout << float_to_string(0, 2, 4);
}
if (metrics.stack.mac[i].tx_brate > 0) {
cout << float_to_eng_string(SRSLTE_MAX(0.1, (float)metrics.stack.mac[i].tx_brate / period_usec * 1e6), 1);
} else {
cout << float_to_string(0, 1, 6) << "";
}
cout << std::setw(5) << metrics.stack.mac[i].tx_pkts;
cout << std::setw(5) << metrics.stack.mac[i].tx_errors;
if (metrics.stack.mac[i].tx_pkts > 0 && metrics.stack.mac[i].tx_errors) {
cout << float_to_string(
SRSLTE_MAX(0.1, (float)100 * metrics.stack.mac[i].tx_errors / metrics.stack.mac[i].tx_pkts), 1, 4)
<< "%";
} else {
cout << float_to_string(0, 1, 4) << "%";
}
cout << " ";
if (not isnan(metrics.phy[i].ul.sinr)) {
cout << float_to_string(SRSLTE_MAX(0.1, metrics.phy[i].ul.sinr), 2, 4);
} else {
cout << float_to_string(0, 1, 4);
}
cout << float_to_string(metrics.stack.mac[i].phr, 2, 5);
if (not isnan(metrics.phy[i].ul.mcs)) {
cout << float_to_string(SRSLTE_MAX(0.1, metrics.phy[i].ul.mcs), 1, 4);
} else {
cout << float_to_string(0, 1, 4);
}
if (metrics.stack.mac[i].rx_brate > 0) {
cout << float_to_eng_string(SRSLTE_MAX(0.1, (float)metrics.stack.mac[i].rx_brate / period_usec * 1e6), 1);
} else {
cout << float_to_string(0, 1) << "";
}
cout << std::setw(5) << metrics.stack.mac[i].rx_pkts;
cout << std::setw(5) << metrics.stack.mac[i].rx_errors;
if (metrics.stack.mac[i].rx_pkts > 0 && metrics.stack.mac[i].rx_errors > 0) {
cout << float_to_string(
SRSLTE_MAX(0.1, (float)100 * metrics.stack.mac[i].rx_errors / metrics.stack.mac[i].rx_pkts), 1, 4)
<< "%";
} else {
cout << float_to_string(0, 1, 4) << "%";
}
cout << float_to_eng_string(metrics.stack.mac[i].ul_buffer, 2);
cout << endl;
}
cout.flags(f); // For avoiding Coverity defect: Not restoring ostream format
}
std::string metrics_stdout::float_to_string(float f, int digits, int field_width)
{
std::ostringstream os;
int precision;
if (isnan(f) or fabs(f) < 0.0001) {
f = 0.0;
precision = digits - 1;
} else {
precision = digits - (int)(log10f(fabs(f)) - 2 * DBL_EPSILON);
}
if (precision == -1) {
precision = 0;
}
os << std::setw(field_width) << std::fixed << std::setprecision(precision) << f;
return os.str();
}
std::string metrics_stdout::int_to_hex_string(int value, int field_width)
{
std::ostringstream os;
os << std::hex << std::setw(field_width) << value;
return os.str();
}
std::string metrics_stdout::float_to_eng_string(float f, int digits)
{
const int degree = (f == 0.0) ? 0 : lrint(floor(log10f(fabs(f)) / 3));
std::string factor;
if (abs(degree) < 9) {
if (degree < 0)
factor = prefixes[0][abs(degree)];
else
factor = prefixes[1][abs(degree)];
} else {
return "failed";
}
const double scaled = f * pow(1000.0, -degree);
if (degree != 0) {
return float_to_string(scaled, digits, 5) + factor;
} else {
return " " + float_to_string(scaled, digits, 5 - factor.length()) + factor;
}
}
} // namespace srsenb